AT16486U1 - conveyor system - Google Patents

Abstract

Conveyor system, in particular a conveyor system with traction limiting in steeply rising conveyors in which targeted by selecting the number of intermediate drives, the distance between the intermediate drives and the drive forces or drive power to the intermediate drives the traction independently of the head of the conveyor specifically limited or targeted under a Maximum traction. The drive power transmission from the intermediate drive to the conveyor is done either by friction or by positive locking.

Description

The invention relates to a conveyor system, in particular on a conveyor system with Zugkraftbegrenzung at steeply rising conveyors, in which by selective selection of the number of intermediate drives, the distance between the intermediate drives and the driving forces or drive power to the intermediate drives the pulling force regardless of the delivery height of the conveyor is deliberately limited or deliberately kept below a maximum tensile force.

There are conveyor systems for steeply rising conveyor known, which have arranged their drive at the upper end of the conveyor line and thus the entire tensile force - which is composed of train or Tragorganeigengewichtskraft, the load weight force, the resistance to movement and the biasing force - on this drive dismantle. In these conveyor systems, the traction increases steadily according to their delivery height and is thus directly dependent on the delivery height. These conveyor systems are limited in throughput and the delivery height by their maximum tensile force, since the tensile carriers used for it, such as straps, ropes, chains, etc. are limited in their allowable load.

The invention aims at the fact that said conveyors in their traction - regardless of the head - limited or deliberately kept under a maximum traction. This is achieved by arranging several intermediate drives along the conveyor line. The drive power transmission from the intermediate drive to the conveyor is done either by Reiboder by positive locking. At the intermediate drives along the conveyor line, the tensile force is reduced. This ensures that the tensile force is limited within a range or kept deliberately below a maximum tensile force. With this invention, it is possible by selective selection of the number of intermediate drives, the distance between the intermediate drives and the drive forces or drive power to the intermediate drives, tension members such as straps, ropes, chains, etc. use with their limited allowable load regardless of the head.

Embodiments of the subject invention are illustrated in the drawings.

Fig. 1 shows a frontal view of a known steeply rising conveyor with vertical route with drive at the upper end of the conveyor.

Fig. 2 shows a frontal view of the conveyor system according to the invention with traction limiting in steeply rising conveyors by arrangement of intermediate drives, Fig. 3 shows a detail of an intermediate drive with frictional engagement and Fig. 4 shows a detail of an intermediate drive with positive locking.

The invention will be explained in more detail with reference to the drawings. 1 shows an elevation of a conveyor with a vertical course. The drive takes place at the upper end of the conveyor. The size of the tensile force is shown schematically with a traction force - which is 90 ° to the route - shown. The tensile force (1) increases from the lower deflector to the upper deflector and is composed of the tensile natural weight force, the loading weight force, the resistance force and the biasing force. The drive takes place at the upper end of the conveyor. The entire traction is reduced at this drive. FIG. 2 is an elevational view of a conveyor having a vertical course using the traction limiting conveyor system on steeply ascending conveyors. FIG. The tensile force increases starting from the lower deflection with the same intensity as in Fig. 1. However, the drive takes place during the conveying path through one or more intermediate drives (2). At each intermediate drive along the conveyor line, the tensile force is limited or reduced (3). The drive power transmission from the intermediate drive to the conveyor is done either by friction or by positive locking. With this invention is - by selective voting / 5

AT16 486U1 2019-10-15 austriictiei p3LPrL3ir, L the number of intermediate drives, the distance between the intermediate drives and the drive forces or drive power at the intermediate drives - the tensile force is limited independent of the delivery height of the conveyor. 3 shows the arrangement of the intermediate drives as reibschlüssige- and Fig. 4 as a positive power transmission, As a tension and support member of the conveyor, a belt was shown. This can be used with a smooth surface (4) for frictional engagement or with a profiled surface (5) for positive locking. For power transmission through the intermediate drive, a belt was also shown. This can be used with a smooth surface (6) for the frictional connection or with a profiled surface (7) for positive locking. To guide the conveyor during the route and in the area of the intermediate drives supporting and / or support rollers can be used. It should be noted that every sponsor, such as B.: A Stellfördergurt, a Gurtbecherwerk, a Kettenbecherwerk, a chain conveyor, a chain belt conveyor, etc., can be used. Furthermore, any other shape of the tension member can be selected on the intermediate drive, such. As a belt, a rope, a chain, etc .. Decisive for the Gurtzugkraftbegrenzung are the arrangements, the number and the driving force of the intermediate drives and not the type of tension member. It is also possible to execute the tension member directly as a smooth drum for the frictional drive, or as a profiled drum for the positive drive.

Claims (7)

1. conveyor system with a conveyor with a maximum traction, in particular conveyor system with traction limiter at steeply rising conveyors, characterized in that one or more intermediate drives to reduce the tensile force along the conveying path are arranged, wherein a number of intermediate drives, a distance between the intermediate drives and a Driving force of the intermediate drives is selected to keep the pulling force independent of the conveying height of the conveyor under the maximum tensile force. 2. Conveying system according to claim 1, characterized in that the power transmission takes place by the intermediate drives to a conveyor by means of frictional engagement. 3. A conveyor system according to claim 1, characterized in that the power transmission takes place by the intermediate drives to a conveyor by means of positive locking. 4. A conveyor system according to claim 1, characterized in that the power transmission takes place by the intermediate drives to a conveyor partly by positive engagement and partially by means of frictional engagement. 5. Conveyor system according to one of claims 1 to 4, characterized in that the power transmission takes place by the intermediate drives to the conveyor on the back, on the front or on the side of the tension member. 6. conveying system according to one of claims 1 to 5, characterized in that the line along the conveying path has different slopes. 7. A method of conveying with a conveyor with a maximum tensile force, characterized in that the conveyor is driven by one or more intermediate drives, wherein the tensile force is reduced at the intermediate drives, wherein a number of intermediate drives, a distance between the intermediate drives and a driving force of the Between drives are chosen so that the pulling force is kept independent of the delivery height of the conveyor under the maximum tensile force. For this 2 sheets of drawings